CN114768956A - Jet-propelled clean ball mill for processing active carbon - Google Patents

Jet-propelled clean ball mill for processing active carbon Download PDF

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Publication number
CN114768956A
CN114768956A CN202210487105.9A CN202210487105A CN114768956A CN 114768956 A CN114768956 A CN 114768956A CN 202210487105 A CN202210487105 A CN 202210487105A CN 114768956 A CN114768956 A CN 114768956A
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China
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ring
pipe
plate
ball mill
fixedly connected
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CN202210487105.9A
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Chinese (zh)
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马秀玲
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Individual
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C17/00Disintegrating by tumbling mills, i.e. mills having a container charged with the material to be disintegrated with or without special disintegrating members such as pebbles or balls
    • B02C17/10Disintegrating by tumbling mills, i.e. mills having a container charged with the material to be disintegrated with or without special disintegrating members such as pebbles or balls with one or a few disintegrating members arranged in the container
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C17/00Disintegrating by tumbling mills, i.e. mills having a container charged with the material to be disintegrated with or without special disintegrating members such as pebbles or balls
    • B02C17/18Details
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • B02C23/18Adding fluid, other than for crushing or disintegrating by fluid energy
    • B02C23/20Adding fluid, other than for crushing or disintegrating by fluid energy after crushing or disintegrating
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B9/00Cleaning hollow articles by methods or apparatus specially adapted thereto 
    • B08B9/08Cleaning containers, e.g. tanks
    • B08B9/093Cleaning containers, e.g. tanks by the force of jets or sprays

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  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Mechanical Engineering (AREA)
  • Crushing And Grinding (AREA)

Abstract

The invention belongs to the technical field of active carbon processing, and particularly relates to an air-jet clean ball mill for active carbon processing, which comprises a ball mill charging barrel, wherein a driving ring is fixedly connected to the side surface of the ball mill charging barrel, a feeding ring end is arranged on the inner side of the driving ring, a feeding ring opening is formed in the side surface of the feeding ring end, an inner ring tube cavity is arranged on the inner side of the inner ring tube cavity, an inner tube wall is arranged on the inner side of the inner ring tube cavity, a grinding ring tube and a material turning ring tube are arranged inside the inner tube wall, a fixing plate ring is arranged on the inner side surface of the grinding ring tube, a stirring plate is arranged on the side surface of the fixing plate ring, a stirring plate is arranged on the side surface of the stirring plate, and a fixing net ring is arranged on the inner side surface of the material turning ring tube. According to the invention, the inner wall can be covered by the washing and cleaning water, the cleanable range and the cleaning degree of the interior are improved, the interior can be ventilated, the drying efficiency of the interior is accelerated, the discharging efficiency of the material can be improved, and the re-agglomerated material is scattered by utilizing the net-shaped structure.

Description

Jet-propelled clean ball mill for processing active carbon
Technical Field
The invention belongs to the technical field of active carbon processing, and particularly relates to an air-jet clean ball mill for processing active carbon.
Background
The main function of the steel balls in the ball mill is to impact and crush materials and simultaneously play a certain role in grinding. Therefore, the steel balls are graded to meet the requirements of both aspects. The grinding effect directly affects the grinding efficiency, the yield of the ball mill is finally affected, whether the grinding requirement can be met depends on whether the grading of the steel balls is reasonable or not, the grading mainly comprises the size of the steel balls, the number of ball diameter stages, the proportion of balls in various specifications and the like, and the ball mill is also applied to the processing of the activated carbon.
Ball mill is when processing the material, and the powder that is ground is shifted to the bottom along with rolling easily for the area of contact of side filter screen and material is limited, and filtration efficiency is lower, and simultaneously after processing, the material also is attached to inner wall department easily, hardly washs the narrow space in inside, and long-term accumulation easily causes certain pollution to the finished product active carbon of follow-up reprocess, influences the quality of active carbon.
Disclosure of Invention
The invention aims to provide an air-jet clean ball mill for processing activated carbon, which can ensure that the inner wall can be covered by flushing and cleaning water, the cleanable range and the cleaning degree of the inside can be improved, the inside can be ventilated, the drying efficiency of the inside can be accelerated, the discharging efficiency of materials can be improved, the re-agglomerated materials can be scattered by utilizing a net-shaped structure, the loose state of the materials can be kept, the quality of the materials can be improved, the filtering efficiency of the materials can be improved, the contact area of the materials and a screen can be increased, the activated carbon is prevented from being polluted by unrecleanable residues in the subsequent production, and the production quality of the activated carbon can be ensured.
The technical scheme adopted by the invention is as follows:
the jet-propelled clean ball mill for processing the activated carbon comprises a ball mill charging barrel, wherein a driving ring is fixedly connected to the side surface of the ball mill charging barrel, a feeding ring end is arranged on the inner side of the driving ring, and a feeding ring opening is formed in the side surface of the feeding ring end;
the inner side of the inner ring tube cavity is provided with an inner cylinder wall, and a grinding ring tube and a stirring ring tube are arranged in the inner cylinder wall;
a fixed plate ring is arranged on the inner side surface of the grinding ring pipe, a stirring plate is arranged on the side surface of the fixed plate ring, and a stirring plate is arranged on the side surface of the stirring plate;
the material stirring device is characterized in that a fixed net ring is arranged on the inner side of the material stirring ring pipe, an outer ring net is arranged on the inner side of the fixed net ring, a material shaking barrel is arranged in the center of the fixed net ring, and a material stirring plate is arranged on the side face of the material shaking barrel.
The grinding ring pipe is fixed with the inner cylinder wall, the side surface of the inner cylinder wall is fixedly connected with a wall penetrating communicating joint, the wall penetrating communicating joint is communicated with the grinding ring pipe, and the same corresponding positions of the grinding ring pipe and the material turning ring pipe are communicated with the wall penetrating communicating joint.
The outer loop side of grinding ring canal is outside bellied arc structure, one of them side fixedly connected with of grinding ring canal erects the frid, and erects the side of frid and set up array distribution's the hole that leaks, the grinding ring canal constitutes the annular pipe that the cross-section is triangle-shaped with erecting the frid, and the pipe wall formation arc of annular pipe towards one side adaptation grinding ring canal of grinding ring canal to the annular pipe has seted up the annular water hole, and the annular water hole is linked together with the inner ring lumen, the inner ring lumen is linked together outside ball mill storage bucket.
Be provided with crushing room between grinding ring canal and the ball mill storage bucket inner wall, be provided with the storeroom between grinding ring canal and the stirring ring canal, be provided with the roof air box between stirring ring canal and the ball mill storage bucket inner wall, the side of roof air box is offered and is used for jet-propelled shower nozzle, and the shower nozzle is the annular array and distributes, the side fixedly connected with air supply pipe of roof air box, the top surface of roof air box is inside sunken arc groove form, roof air box top both sides limit perk, and its edge and inner wall laminating, the fixed inner ring of side fixedly connected with of roof air box, the air supply pipe is run through to the opposite side by fixed inner ring's one side.
The outer side of the fixed inner ring is rotatably connected with a rotating outer ring, the rotating outer ring is fixedly connected with the ball mill charging basket, the inner side face of the rotating outer ring is provided with a water injection pipe in a penetrating mode, the other end of the water injection pipe is fixedly communicated with a folded angle connecting pipe, and one end portion, located inside the ball mill charging basket, of the folded angle connecting pipe is fixedly connected to the material turning ring pipe.
The material overturning ring pipe is fixed with the fixed net ring, the fixed net ring is fixedly connected with the outer ring net, the inner side of the outer ring net is fixedly connected with the inner ring net, the inner ring net is fixedly connected with the material shaking barrel, the material shaking barrel is fixedly connected with the material stirring plate, the material stirring plate is distributed in an annular array mode by the axis of the material shaking barrel, a bin port is formed in the outer side of the material shaking barrel, an inner shielding plate is fixedly connected with the inner side face of the bin port, and filtering holes are formed in the side face of the inner ring net located on the inner side of the material shaking barrel.
The grinding ring pipe is fixed with the fixed plate ring, the fixed plate ring is fixed with the mixing plate, the mixing plates are distributed in an annular array by taking the ring center of the fixed plate ring as the center, the inner side of the fixed plate ring is fixedly connected with an arc-shaped mesh enclosure, the arc-shaped mesh enclosure is a spherical three-dimensional mesh enclosure, one side edge of each mixing plate is attached to the arc-shaped mesh enclosure, each mixing plate is an arc-shaped folded plate, the turning angle of each mixing plate is larger than one hundred sixty five degrees, and the side surface of each mixing plate is provided with a stirring plate.
The stirring plate is rotatably connected with the stirring plate, the side face of the stirring plate is fixedly connected with a fixing plate, the side face of the fixing plate is fixedly connected with a displacement slide rod, a gravity ball is inserted and arranged on the outer side of the displacement slide rod, the gravity ball and the displacement slide rod form a sliding structure, and the outline of one side edge of the stirring plate is in an inwards-concave arc shape.
The invention has the technical effects that:
according to the invention, water firstly enters the material turning ring pipe through the through-wall communication joint, excessive water in the material turning ring pipe enters the grinding ring pipe through the communication straight pipe, and then the water is sprayed out through the grinding ring pipe and the spray heads on the side surfaces of the material turning ring pipe, and the inner wall of the inner cylinder wall is cleaned.
The invention firstly leads gas to enter the top plate gas box by leading the gas into the gas supply pipe, when the gas pressure in the top plate gas box is increased to a certain value, the spray head on the side surface of the top plate gas box pushes open the gas film of the spray head under the action of pressure and sprays the gas in the top plate gas box, so as to lead the inner wall of the inner cylinder wall to be attached with fine particles and fall off from the inner wall, at the moment, the ball mill charging barrel can be rotated, because the top plate gas box is fixed with the fixed inner ring, when the ball mill charging barrel rotates, the rotating outer ring and the fixed inner ring rotate, the fixed inner ring and the top plate gas box keep static, and when the inner cylinder wall rotates, the spray cleaning is carried out on different positions of the inner wall of the inner cylinder wall through the spray head on the side surface of the top plate gas box, and then the ventilation treatment can be carried out after the cleaning, the ventilation can be carried out on the inside, thereby accelerating the internal drying efficiency.
According to the invention, after the processing is finished, water is injected through the water injection pipe of the pipeline, the water in the water injection pipe enters the material turning ring pipe through the bevel connecting pipe, the water is sprayed out for washing by utilizing the water pressure, after the washing is finished, the charging basket of the ball mill is rotated, the crushed slag and the water in the charging basket of the ball mill are turned over, the drainage efficiency is accelerated, and the internal cleaning is facilitated by adding the water coiling structure.
According to the ball mill material stirring and shaking device, materials in the storage chamber are placed into the material groove formed by the material stirring plate and the side baffle through the material stirring plate and gradually rotate along with the rolling of the ball mill material barrel, then the material stirring plate rotates to the upper side, the materials slide into the material bin opening along with the material stirring plate inclined to the upper side under the action of gravity, the materials move into the material shaking barrel and enter the upper side of the top plate air box through the inner ring net, the inner shielding plate can prevent the materials entering the material shaking barrel from overflowing from other material bin openings, the structure utilizes the structure material stirring to convey the materials to the upper side, the materials drop downwards through the inner ring net by utilizing the self gravity, the material conveying effect is achieved, the material discharging efficiency of the materials can be improved, the net-shaped structure is utilized to scatter the materials which are agglomerated again, the material state is kept, and the material quality is improved.
In the invention, when the material and the iron balls roll at the inner side of the crushing chamber, the iron balls extrude the material along with the rotation of the charging basket of the ball mill, so that the material is gradually changed into powder, the material extruded into powder can rotate along with the charging basket of the ball mill and the material mixing plate simultaneously, so that the material close to one side of the material mixing plate can move to the inner side of the material mixing plate through rolling, at the moment, the poking plate is opened downwards due to the influence of gravity, when the material mixing plate turns over to the upper part, the material inside the material mixing plate falls into the side surface of the arc-shaped mesh enclosure, the particles with the particle size larger than that of the arc-shaped mesh enclosure are blocked and fall back into the crushing chamber, the particles with the particle size smaller than that of the arc-shaped mesh enclosure enter into the storage chamber through the arc-shaped mesh enclosure, the iron balls are clamped by the material mixing plate, rotate for a circle along with the charging basket of the ball mill, fall back into the storage chamber again, this structure is dialled the material through the rotation, can promote material filtration efficiency, increases the area of contact of material and screen cloth.
According to the invention, when the material mixing plate is at the lowest position, the fixed piece can rotate with the material mixing plate through the hinge joint, the fixed piece is in a vertically downward state under the action of the gravity ball, the fixed piece is in an open state, when the material mixing plate is at the highest position, the gravity ball on the side surface of the fixed piece slides to the lower part of the displacement slide rod under the action of gravity, the gravity center position of the fixed piece is further changed, the fixed piece is deflected, the other side edge of the fixed piece is in contact with the side surface of the material mixing plate, and the side surface of the fixed piece is in a closed state.
Drawings
FIG. 1 is a schematic front perspective view of the present invention;
FIG. 2 is a schematic view of the roof plenum mounting arrangement of the present invention;
FIG. 3 is a schematic view of the installation structure of the fixed net ring in the present invention;
FIG. 4 is a schematic view of a mounting structure of the retainer ring of the present invention;
FIG. 5 is a schematic view of the connection structure of the shaking bucket in the present invention;
FIG. 6 is a schematic view of the connection structure of the material mixing plate in the present invention;
FIG. 7 is a schematic view of the structure of the toggle plate of the present invention;
fig. 8 is an enlarged view of a in fig. 2 according to the present invention.
In the drawings, the components represented by the respective reference numerals are listed below:
1. a ball mill charging basket; 2. a drive ring; 3. a feeding ring end; 4. feeding a ring opening; 5. an inner annular lumen; 6. an inner cylinder wall; 7. a crushing chamber; 8. a storage chamber; 9. grinding a ring pipe; 10. a through-wall communication joint; 11. a straight pipe is communicated; 12. a material turning ring pipe; 13. a bevel connecting pipe; 14. a water injection pipe; 15. rotating the outer ring; 16. fixing the inner ring; 17. a gas supply pipe; 18. a roof gas box; 19. fixing the net ring; 20. an outer loop web; 21. a material stirring plate; 22. shaking the material barrel; 23. a side dam; 24. a plate fixing ring; 25. a material mixing plate; 26. an arc net cover; 27. an inner ring net; 28. a bin opening; 29. an inner shield plate; 30. filtering holes; 31. a poking plate; 32. a fixing sheet; 33. a gravity ball; 34. and (4) displacing the slide bar.
Detailed Description
In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.
As shown in fig. 1-8, an air-jet clean ball mill for processing activated carbon comprises a ball mill charging basket 1, wherein a driving ring 2 is fixedly connected to the side surface of the ball mill charging basket 1, a feeding ring end 3 is arranged on the inner side of the driving ring 2, and a feeding ring opening 4 is formed in the side surface of the feeding ring end 3.
An inner ring tube cavity 5 is arranged on the inner side of the ball mill charging basket 1, an inner barrel wall 6 is arranged on the inner side of the inner ring tube cavity 5, and a grinding ring tube 9 and a material stirring ring tube 12 are arranged inside the inner barrel wall 6.
A fixed plate ring 24 is arranged on the inner side surface of the grinding ring pipe 9, a stirring plate 25 is arranged on the side surface of the fixed plate ring 24, and a stirring plate 31 is arranged on the side surface of the stirring plate 25.
The inner side of the material turning ring pipe 12 is provided with a fixed net ring 19, the inner side of the fixed net ring 19 is provided with an outer ring net 20, the center position of the fixed net ring 19 is provided with a material shaking barrel 22, and the side surface of the material shaking barrel 22 is provided with a material stirring plate 21.
Referring to the attached figure 2, an inner tube cavity is arranged inside a grinding ring tube 9, a plurality of nozzles communicated with the inner tube cavity are arranged on the outer side surface of the grinding ring tube 9, the grinding ring tube 9 is fixed with an inner tube wall 6, a wall penetrating communicating joint 10 is fixedly connected with the ring side surface of the inner tube wall 6, the wall penetrating communicating joint 10 is communicated with the grinding ring tube 9, the same corresponding positions of the grinding ring tube 9 and a material turning ring tube 12 are both communicated with the wall penetrating communicating joint 10, through the structure, water firstly enters the material turning ring pipe 12 through the wall penetrating communication joint 10, redundant water in the material turning ring pipe 12 enters the grinding ring pipe 9 through the communication straight pipe 11, then the water is sprayed out through the spray heads at the side surfaces of the grinding ring pipe 9 and the stirring ring pipe 12, the inner wall of the inner cylinder wall 6 is cleaned, this structure utilizes the loop configuration, guarantees that the inner wall homoenergetic is washed clean water and is covered, promotes inside washable scope and clean degree.
Referring to the attached figure 8, the outer ring side of the grinding ring pipe 9 is of an arc structure protruding outwards, one side surface of the grinding ring pipe 9 is fixedly connected with a vertical groove plate, the side surface of the vertical groove plate is provided with water leakage holes distributed in an array manner, the grinding ring pipe 9 and the vertical groove plate form an annular pipe with a triangular section, one side of the annular pipe facing the grinding ring pipe 9 is matched with the pipe wall of the grinding ring pipe 9 to form an arc, the annular pipe is provided with an annular water hole, the annular water hole is communicated with the inner ring pipe cavity 5, the inner ring pipe cavity 5 is communicated with the outer side of the ball mill charging basket 1, through the structure, water accumulated and cleaned through washing enters the annular pipe through the water leakage holes on the side surface of the vertical groove plate, enters the annular pipe, enters the inner ring pipe cavity 5 through the annular water hole, is discharged through the side surface of the inner ring pipe cavity 5 and an external communication part, the water leakage holes are in a normally closed state when in a working state, and are in an open state when discharging water, the prior art is used herein without undue recitation.
Referring to the attached figure 2, a crushing chamber 7 is arranged between a grinding ring pipe 9 and the inner wall of a ball mill charging basket 1, a storage chamber 8 is arranged between the grinding ring pipe 9 and a material turning ring pipe 12, a top plate air box 18 is arranged between the material turning ring pipe 12 and the inner wall of the ball mill charging basket 1, nozzles for spraying air are arranged on the side surface of the top plate air box 18 and distributed in an annular array, an air supply pipe 17 is fixedly connected to the side surface of the top plate air box 18, the top surface of the top plate air box 18 is in an inwards-concave arc groove shape, two side edges of the top plate air box 18 are tilted, the edge of the top plate air box is attached to an inner barrel wall 6, a fixed inner ring 16 is fixedly connected to the side surface of the top plate air box 18, the air supply pipe 17 penetrates from one side to the other side of the fixed inner ring 16, through the structure, air is firstly introduced into the inside of the top plate air box 18 through introducing air into the air supply pipe 17, when the air pressure inside the top plate air box 18 is increased to a certain value, the spray head on the side of the top plate air box 18 pushes the spray head air film open under the action of pressure, and sprays the air in the top plate air box 18, so that fine particles are attached to the inner wall of the inner cylinder wall 6 and fall off from the inner wall, at the moment, the ball mill charging barrel 1 can rotate, as the top plate air box 18 is fixed with the fixed inner ring 16, when the ball mill charging barrel 1 rotates, the rotating outer ring 15 and the fixed inner ring 16 rotate, the fixed inner ring 16 and the top plate air box 18 keep static, and when the inner cylinder wall 6 rotates, the spray head on the side of the top plate air box 18 can spray air to different positions of the inner wall of the inner cylinder wall 6, and then after the cleaning is finished, the air can be ventilated again, the inside can be ventilated, and the internal drying efficiency is accelerated.
Referring to the attached drawing 2, the outer side of the inner fixed ring 16 is rotatably connected with the outer rotary ring 15, the outer rotary ring 15 is fixedly connected with the ball mill charging basket 1, the inner side surface of the outer rotary ring 15 is provided with a water injection pipe 14 in a penetrating mode, the other end of the water injection pipe 14 is fixedly communicated with a folded angle connecting pipe 13, the folded angle connecting pipe 13 is located at one end inside the ball mill charging basket 1 and is fixedly connected onto the material turning ring pipe 12, through the structure, after machining is finished, water is injected through the water injection pipe 14, the water inside the water injection pipe 14 enters the material turning ring pipe 12 through the folded angle connecting pipe 13 and is washed by water pressure, water is sprayed out, and after washing is finished, the ball mill charging basket 1 is rotated, broken slag and water inside the ball mill charging basket 1 are turned over, the water drainage efficiency is accelerated, and the water coiling structure is increased, so that the inside of the ball mill charging basket is conveniently cleaned.
Referring to fig. 5, the material turning ring 12 is fixed with a fixed net ring 19, the fixed net ring 19 is fixedly connected with an outer net 20, the inner side of the outer net 20 is fixedly connected with an inner ring net 27, the inner ring net 27 is fixedly connected with a material shaking barrel 22, the material shaking barrel 22 is fixedly connected with a material stirring plate 21, the material stirring plates 21 are distributed in an annular array with the axis of the material shaking barrel 22, the outer side of the material shaking barrel 22 is provided with a material bin port 28, the inner side surface of the material bin port 28 is fixedly connected with an inner shielding plate 29, the side surface of the inner ring net 27 positioned at the inner side of the material shaking barrel 22 is provided with a filter hole 30, through the structure, the material in the storage chamber 8 is contained in a material groove formed by the material stirring plate 21 and a side baffle plate 23 and gradually rotates along with the rolling of the material barrel 1 of the ball mill, then the material stirring plate 21 rotates to the upper side, so that the material slides down to the material bin port 28 along with the material stirring plate 21 inclined at the position under the action of gravity, move in shaking storage bucket 22, and let the material enter into roof gas tank 18 top through inner circle net 27, interior sunshade 29 can prevent to enter into and shake the material in storage bucket 22 and spill over from other feed bin mouths 28, this structure utilizes the structure to dial the material, transport the top with the material, let the material utilize self gravity, drop downwards, pass inner circle net 27, when playing the transportation material effect, can also promote the discharging efficiency of material, and utilize network structure, break up the material of caking again, keep the loose state of material, promote the material quality.
Referring to fig. 6, the grinding ring 9 is fixed to the fixing ring 24, the fixing ring 24 is fixed to the material mixer 25, the material mixer 25 is distributed in an annular array around the center of the fixing ring 24, the inner side of the fixing ring 24 is fixedly connected with the arc-shaped mesh enclosure 26, the arc-shaped mesh enclosure 26 is a spherical three-dimensional mesh enclosure, one side edge of the material mixer 25 is attached to the arc-shaped mesh enclosure 26, the material mixer 25 is an arc-shaped folded plate, the turning angle of the material mixer 25 is greater than one hundred sixty five degrees, the stirring plate 31 is arranged on the side surface of the material mixer 25, with the above structure, when the material and the iron balls roll on the inner side of the grinding chamber 7, the iron balls will extrude the material along with the rotation of the material barrel 1, so that the material gradually becomes powder, the material extruded into the powder can rotate along with the material barrel 1 and the material mixer 25 simultaneously, so that the material near one side of the material mixer 25 can roll and move to the inner side of the material mixer 25 through the ball mill, at this moment, the poking plate 31 is opened downwards due to the influence of gravity, when the mixer plate 25 is turned over to the upper side, the material on the inner side of the mixer plate 25 falls into the side surface of the arc-shaped mesh enclosure 26, the particle size of the particles is larger than that of the arc-shaped mesh enclosure 26 and is blocked to fall back into the crushing chamber 7, the particle size of the particles is smaller than that of the arc-shaped mesh enclosure 26, the particles penetrate through the arc-shaped mesh enclosure 26 and enter the storeroom 8, the iron balls are clamped by the mixer plate 25 and fall back into the storeroom 8 after rotating for one circle along with the ball mill charging basket 1, and the material filtering efficiency can be improved and the contact area between the material and the screen is increased by rotating the poking plate.
Referring to fig. 7, the material mixing plate 25 is rotatably connected to the toggle plate 31, the side surface of the toggle plate 31 is fixedly connected to a fixing plate 32, the side surface of the fixing plate 32 is fixedly connected to a displacement slide bar 34, a gravity ball 33 is inserted and arranged outside the displacement slide bar 34, the gravity ball 33 and the displacement slide bar 34 form a sliding structure, the shape of one side edge of the toggle plate 31 is an arc shape which is recessed inwards, by the structure, when the material mixing plate 25 is at the lowest position, the fixing plate 32 can rotate with the material mixing plate 25 by hinging, at this time, the fixing plate 32 is in a vertically downward state under the action of the gravity ball 33, at this time, the fixing plate 32 is in an open state, when the material mixing plate 25 is at the highest position, the gravity ball 33 on the side surface of the fixing plate 32 slides under the displacement slide bar 34 under the action of gravity, further, the gravity center position of the fixing plate 32 is changed, and the fixing plate 32 is deflected, let stationary blade 32 opposite side edge and mix flitch 25 side contact, make it be in the closure state, this structure promotes the filtration efficiency of material through to the material extrusion, prevents that articulated department from being blockked up by the material.
The working principle of the invention is as follows: firstly, the processed materials and iron balls are sequentially put in from a feeding ring opening 4 on the side surface of a feeding ring end 3, so that the materials enter the crushing chamber 7, when the materials and the iron balls roll in the inner side of the crushing chamber 7, the iron balls extrude the materials along with the rotation of a ball mill charging basket 1, so that the materials gradually become powder, the materials extruded into the powder can rotate along with the ball mill charging basket 1 and a stirring plate 25 simultaneously, so that the materials close to one side of the stirring plate 25 can move to the inner side of the stirring plate 25 through rolling, at the moment, a stirring plate 31 is opened downwards due to the influence of gravity, when the stirring plate 25 turns over to the upper side, the materials in the inner side of the stirring plate 25 fall into the side surface of an arc-shaped mesh enclosure 26, the particles with the particle diameter larger than the arc-shaped mesh enclosure 26 are blocked and fall back into the crushing chamber 7, the particles with the particle diameter smaller than the arc-shaped mesh enclosure 26 enter into a storage chamber 8 through the arc-shaped mesh enclosure 26, and the iron balls are blocked by the stirring plate 25, the material in the storage chamber 8 is placed in a material groove formed by a material poking plate 21 and a side baffle 23 through the material poking plate 21 and gradually rotates along with the rolling of the ball mill charging basket 1, then the material poking plate 21 rotates to the upper part, so that the material slides down to a material bin opening 28 along with the material poking plate 21 inclined at the position under the action of gravity, moves to a material shaking barrel 22, enters the upper part of a top plate air box 18 through an inner ring net 27 and is discharged through a fixed inner ring 16;
when the work is finished and needs to be cleaned, firstly, gas is introduced into the gas supply pipe 17, the introduced gas enters the top plate gas box 18, when the pressure in the top plate gas box 18 is increased to a certain value, the spray head on the side surface of the top plate gas box 18 pushes the spray head gas film open under the action of pressure, and the gas in the top plate gas box 18 is sprayed out, so that fine particles are adhered to the inner wall of the inner cylinder wall 6 and fall off from the inner wall, at the moment, the ball mill charging barrel 1 can rotate, as the top plate gas box 18 is fixed with the fixed inner ring 16, when the ball mill charging barrel 1 rotates, the rotating outer ring 15 and the fixed inner ring 16 rotate, the fixed inner ring 16 and the top plate gas box 18 keep static, and when the inner cylinder wall 6 rotates, the spray cleaning is carried out on different positions of the inner wall of the inner cylinder wall 6 through the spray head on the side surface of the top plate gas box 18, then, water is injected through the pipeline water injection pipe 14, and the water in the water injection pipe 14 enters the material overturning ring pipe 12 through the bevel connecting pipe 13, and utilize water pressure, spout the water and wash, wash the back that finishes, rotate ball mill storage bucket 1, through the upset with the inside bits of broken slag of ball mill storage bucket 1 and water, wash the water hole that leaks of the water of collecting up behind the clearance through erecting the frid side, enter into annular tube inside, the rethread annular groove water hole enters into inner ring lumen 5 in, rethread inner ring lumen 5 side with external intercommunication department discharge can.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and amendments can be made without departing from the principle of the present invention, and these modifications and amendments should also be considered as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are not specifically illustrated or described, but are instead contemplated to be practiced in the art by those skilled in the art.

Claims (8)

1. The utility model provides a clear active carbon of jet-propelled processing is with ball mill, includes ball mill storage bucket (1), its characterized in that: a driving ring (2) is fixedly connected to the side surface of the ball mill charging basket (1), a feeding ring end (3) is arranged on the inner side of the driving ring (2), and a feeding ring opening (4) is formed in the side surface of the feeding ring end (3);
an inner ring tube cavity (5) is arranged on the inner side of the ball mill charging barrel (1), an inner barrel wall (6) is arranged on the inner side of the inner ring tube cavity (5), and a grinding ring tube (9) and a material turning ring tube (12) are arranged inside the inner barrel wall (6);
a fixed plate ring (24) is arranged on the inner side surface of the grinding ring pipe (9), a stirring plate (25) is arranged on the side surface of the fixed plate ring (24), and a shifting plate (31) is arranged on the side surface of the stirring plate (25);
the material stirring device is characterized in that a fixed net ring (19) is arranged on the inner side of the material stirring ring pipe (12), an outer ring net (20) is arranged on the inner side of the fixed net ring (19), a material shaking barrel (22) is arranged in the center of the fixed net ring (19), and a material stirring plate (21) is arranged on the side surface of the material shaking barrel (22).
2. The jet-cleaned ball mill for activated carbon processing according to claim 1, characterized in that: the grinding ring pipe structure is characterized in that an inner pipe cavity is formed in the grinding ring pipe (9), a plurality of spray heads communicated with the inner pipe cavity are arranged on the outer side surface of the grinding ring pipe (9), the grinding ring pipe (9) is fixed to the inner pipe wall (6), a wall penetrating communicating joint (10) is fixedly connected to the side surface of the inner pipe wall (6) in a surrounding mode, the wall penetrating communicating joint (10) is communicated with the grinding ring pipe (9), and the same corresponding positions of the grinding ring pipe (9) and the material turning ring pipe (12) are communicated with the wall penetrating communicating joint (10).
3. The jet-cleaned ball mill for activated carbon processing according to claim 1, characterized in that: the outer loop side of grinding ring canal (9) is outside bellied arc structure, one of them side fixedly connected with of grinding ring canal (9) erects the frid, and erects the side of frid and set up array distribution's the hole that leaks, grinding ring canal (9) constitute the annular pipe that the cross-section is triangle-shaped with erecting the frid, and the annular pipe forms the arc towards the pipe wall of one side adaptation grinding ring canal (9) of grinding ring canal (9) to the annular pipe has seted up the annular water hole, and the annular water hole is linked together with inner ring lumen (5), inner ring lumen (5) are linked together with the ball mill storage bucket (1) outside.
4. The jet-cleaned ball mill for activated carbon processing according to claim 3, characterized in that: a crushing chamber (7) is arranged between the grinding ring pipe (9) and the inner wall of the ball mill charging basket (1), a storage chamber (8) is arranged between the grinding ring pipe (9) and the material turning ring pipe (12), a top plate air box (18) is arranged between the material turning ring pipe (12) and the inner wall of the ball mill charging basket (1), a spray head for spraying air is arranged on the side surface of the top plate air box (18), the spray heads are distributed in an annular array, the side surface of the top plate air box (18) is fixedly connected with an air supply pipe (17), the top surface of the top plate air box (18) is in an inwards concave arc groove shape, two side edges of the top plate air box (18) are tilted, and the edge of the inner wall is jointed with the inner cylinder wall (6), the side surface of the top plate air box (18) is fixedly connected with a fixed inner ring (16), the gas supply pipe (17) penetrates from one side of the fixed inner ring (16) to the other side.
5. The jet-cleaned ball mill for activated carbon processing according to claim 4, characterized in that: the ball mill charging basket is characterized in that the outer side of the fixed inner ring (16) is rotatably connected with a rotary outer ring (15), the rotary outer ring (15) is fixedly connected with the ball mill charging basket (1), a water injection pipe (14) penetrates through the inner side surface of the rotary outer ring (15), the other end of the water injection pipe (14) is fixedly communicated with a folded angle connecting pipe (13), and one end, located inside the ball mill charging basket (1), of the folded angle connecting pipe (13) is fixedly connected to the material turning ring pipe (12).
6. The ball mill for processing air-jet cleaned activated carbon according to claim 1, wherein: the material overturning ring pipe (12) is fixed with a fixed net ring (19), the fixed net ring (19) is fixedly connected with an outer ring net (20), an inner ring net (27) is fixedly connected with the inner side of the outer ring net (20), the inner ring net (27) is fixedly connected with a material shaking barrel (22), the material shaking barrel (22) is fixedly connected with a material stirring plate (21), the material stirring plate (21) is distributed in an annular array mode by the axis of the material shaking barrel (22), a material bin opening (28) is formed in the outer side of the material shaking barrel (22), an inner shielding plate (29) is fixedly connected with the inner side surface of the material bin opening (28), and a filtering hole (30) is formed in the side surface of the inner ring net (27) located on the inner side of the material shaking barrel (22).
7. The ball mill for processing air-jet cleaned activated carbon according to claim 4, wherein: the grinding ring pipe (9) is fixed with a fixed plate ring (24), the fixed plate ring (24) is fixed with a mixing plate (25), the mixing plate (25) is distributed in an annular array mode with the center of the fixed plate ring (24) as the center, the inner side of the fixed plate ring (24) is fixedly connected with an arc-shaped mesh enclosure (26), the arc-shaped mesh enclosure (26) is a spherical three-dimensional mesh enclosure, one side edge of the mixing plate (25) is attached to the arc-shaped mesh enclosure (26), the mixing plate (25) is an arc-shaped folded plate, the turning angle of the mixing plate (25) is larger than one hundred sixty five degrees, and a shifting plate (31) is arranged on the side face of the mixing plate (25).
8. The jet-cleaned ball mill for activated carbon processing according to claim 7, characterized in that: the stirring plate (25) is rotatably connected with the stirring plate (31), a fixing plate (32) is fixedly connected to the side surface of the stirring plate (31), a displacement slide rod (34) is fixedly connected to the side surface of the fixing plate (32), a gravity ball (33) is inserted into the outer side of the displacement slide rod (34), the gravity ball (33) and the displacement slide rod (34) form a sliding structure, and the outline of one side edge of the stirring plate (31) is in an inwards-recessed arc shape.
CN202210487105.9A 2022-05-06 2022-05-06 Jet-propelled clean ball mill for processing active carbon Withdrawn CN114768956A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202210487105.9A CN114768956A (en) 2022-05-06 2022-05-06 Jet-propelled clean ball mill for processing active carbon

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202210487105.9A CN114768956A (en) 2022-05-06 2022-05-06 Jet-propelled clean ball mill for processing active carbon

Publications (1)

Publication Number Publication Date
CN114768956A true CN114768956A (en) 2022-07-22

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202210487105.9A Withdrawn CN114768956A (en) 2022-05-06 2022-05-06 Jet-propelled clean ball mill for processing active carbon

Country Status (1)

Country Link
CN (1) CN114768956A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115999716A (en) * 2022-12-23 2023-04-25 襄阳鸿凯智能装备有限公司 Double dynamical no screen cloth nanometer sand mill

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115999716A (en) * 2022-12-23 2023-04-25 襄阳鸿凯智能装备有限公司 Double dynamical no screen cloth nanometer sand mill
CN115999716B (en) * 2022-12-23 2023-07-25 襄阳鸿凯智能装备有限公司 Double dynamical no screen cloth nanometer sand mill

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Application publication date: 20220722